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A digitally controlled superconducting visual bionic instrument

A bionic instrument and superconducting technology, applied in medical science, diagnosis, endoscopy, etc., can solve the problems of shortening the labor process, simplicity, and reducing the rate of cesarean section, and achieve the effect of reliable, stable and high reliability of the system

Active Publication Date: 2016-11-16
无锡市东锦宏投资管理有限公司
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Problems solved by technology

[0002] The midwifery bionic instrument uses the principle of bionics, uses the air bag instead of the fetal head to place the air bag in the cervical canal and vagina, and gradually inflates the air bag to mechanically expand the birth canal, which can be used for both induction of labor and induction of labor, significantly shortening It shortens the labor process, relieves the pain of the puerpera, reduces the labor dystocia caused by uterine atony, reduces the cesarean section rate and reduces the perinatal mortality rate; however, the air bag midwifery instrument currently used still has the following problems: Disadvantages: The current balloon midwifery instrument can only play the role of simple expansion of the birth canal. When using it, the probe is placed in the balloon to observe the situation of the birth canal. When the balloon is filled with gas and bulges, if the parturient has intrauterine bleeding, the visible probe cannot be observed. , with serious consequences

Method used

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  • A digitally controlled superconducting visual bionic instrument
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Embodiment Construction

[0014] The specific implementation manner of the present invention will be described below in conjunction with the accompanying drawings.

[0015] Such as figure 1 and figure 2 As shown, the present invention includes a water pump 1, the water pump 1 is connected to the water reservoir 3 and controlled by the motor 2, the water pump 1 is connected to the waterway 97 in the probe 9 through the water pipe 11; the probe body 91 at the end of the probe 9 extends into the water bag 10 Inside, the water bag 10 is locked on the water outlet head 92 by the locking device 93, and the water outlet head 92 has a water outlet hole, and the motor 2 drives the water pump 1 to fill the water into the water channel 97 of the probe 9 from the water storage device 3, and then pass The water outlet hole on the water outlet head 92 enters the water bag 10 to make the water bag 10 bulge. When the probe body 91 and the water bag 10 need to be withdrawn after use, the water in the water bag 10 can...

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Abstract

The invention relates to a numerical control superconductive visual bionic instrument. The numerical control superconductive visual bionic instrument comprises a water pump, the water pump is connected with a water storage device and is controlled by a motor, and the water pump is connected with a water way inside a probe through a water pipe. A probe body at the end of the probe stretches into a water bag, the water bag is located on a water outlet head through a locking device, and the water outlet head is provided with a water outlet hole. The probe body is connected with a computer through a probe line, and the computer is connected with a displayer. An air bag is replaced by the water bag, the numerical control superconductive visual bionic instrument can achieve the safety delivering function and can monitor whether the birth canal bleeds or not in real time, the abnormal situation can be avoided, and the reliability is high.

Description

technical field [0001] The invention relates to the technical field of medical devices, in particular to a superconducting visual bionic midwifery device. Background technique [0002] The midwifery bionic instrument uses the principle of bionics, uses the air bag instead of the fetal head to place the air bag in the cervical canal and vagina, and gradually inflates the air bag to mechanically expand the birth canal, which can be used for both induction of labor and induction of labor, significantly shortening It shortens the labor process, relieves the pain of the puerpera, reduces the labor dystocia caused by uterine atony, reduces the cesarean section rate and reduces the perinatal mortality rate; however, the air bag midwifery instrument currently used still has the following problems: Disadvantages: The current balloon midwifery instrument can only play the role of simple expansion of the birth canal. When using it, the probe is placed in the balloon to observe the situ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B17/42A61B1/303A61B1/04
CPCA61B1/04A61B1/303A61B17/42
Inventor 曹峰章
Owner 无锡市东锦宏投资管理有限公司
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